生物法净化挥发性有机废气的吸附-生物膜理论模型与模拟研究

针对挥发性有机废气的生物法净化过程,进行了吸附-生物膜新型理论的相关动力学模型研究.经采用实验室数据和工业应用试验结果的对比验证表明,该模型对描述实际过程有很好的适用性.应用该模型对人口气体甲苯浓度、气体流量及生物膜填料层高度等主要因素的影响进行模拟研究,模拟计算值与实验值之间有较好的相关性,相关系数r为0.80～0.97.     

生物炭对三氯生的吸附热动力学研究

以玉米秸秆、皇竹草和花生壳为原料制备成玉米秸秆生物炭(BCcs)、皇竹草生物炭(BCn)、花生壳生物炭(BCps),采用CEC、等电点滴定,表面官能团分析,元素分析、FT-IR、扫描电镜等方法对3种生物炭进行表征,采用单因素静态吸附实验方法考察了生物炭吸附三氯生的主要影响因素.结果表明:CEC和表面官能团数量排序为BCcsBCnBCps,BCcs极性和亲水性更强,孔结构发育更加完善,其次是BCn,BCps的极性和亲水性最弱,孔隙极少.3种生物炭对三氯生的吸附去除率均随着三氯生初始浓度的升高而升高,随着温度的升高而降低,酸性更有利于吸附实验的进行.低离子强度有利于BCcs和BCn吸附三氯生,BCps则相反.在10、25、40℃3种温度下,3种生物炭对三氯生的吸附均更符合准二级反应动力学,Freundilich等温方程和Langmuir等温方程都能描述这3种生物炭对三氯生的吸附行为,吸附反应属于自发、放热反应.吸附机制主要为物理吸附,生物炭与三氯生之间无化学键、配位基交换等强作用力.     

Fe(Ⅲ)掺杂Mg/Al-LDO作为氮磷吸附剂的研究

针对污水厂尾水脱氮除磷问题,采用共沉淀法制备了镁铝铁类水滑石（Mg/Al/Fe–LDHs）,在450℃下焙烧3h得到焙烧态类水滑石（Mg/Al/Fe–LDO）.研究了Fe（Ⅲ）掺杂对Mg/Al-LDO吸附氮磷的影响及吸附特性.结果表明,当Mg/Al/Fe物质的量比为3：0.6：0.4时,Mg/Al/Fe-LDO对氮磷吸附性能较好,最大吸附容量分别为28.57mg/g和231.46mg/g.吸附过程均符合Langmuir吸附等温模型,拟合相关系数（R²）达到0.99以上.根据XRD、FTIR的表征结果可以推断,Mg/Al/Fe–LDO是通过“记忆效应”、静电引力作用完成对氮磷的吸附,对磷的吸附还包括离子交换作用.     

2024铝合金连接结构两种防护涂层耐蚀性研究

目的研究铝合金两种防护涂层在5%NaCl盐雾环境下的腐蚀疲劳性能。方法针对在两种涂层防护作用下的2024铝合金连接结构,开展实验室加速试验,采用"腐蚀环境-疲劳加载"交替循环的试验模式,得到铝合金两种防护涂层在5%NaCl盐雾环境下的腐蚀疲劳寿命值,对比分析涂层体系对铝合金连接结构的腐蚀疲劳寿命影响。结果 5%NaCl盐雾环境对于铝合金连接结构疲劳寿命有较大影响,相较于传统涂层,纳米涂层在5%NaCl盐雾环境下的防护效果更好。结论纳米涂层表面破坏后快速生成的致密氧化膜能有效提高涂层的耐蚀性能。     

Adsorption of Pb, Cd to Fe, Mn oxides in natural freshwater surface coatings developed in different seasons

Metal oxides( Fe, Mn oxides) in natural surface coatings(biofilms and associated minerals) are believed to play a significant role n the fate and transport of trace metal in aquatic environments. Seasonal variation of Fe, Mn oxides and organic materials in surface oatings, which were developed periodically on glass slides in Nanhu Lake, Jilin Province, China over the time frame of three seasons,was investigated in order to understand the influence of metal oxides on Pb and Cd adsorption to heterogeneous surface coating materials(biofilm). Pb and Cd adsorption was measured under controlled laboratory conditions( mineral salts solution with defined speciation, ionic trength 0.05 mol/L, 25~C and pH 6.0). The classical Langmuir adsorption isotherm was applied to estimate equilibrium coefficients of Pb nd Cd adsorption to the surface coatings. In general, components in the surface coatings varied greatly with seasons altering and btained higher concentrations in summer while the content of iron oxides always exceeded that of manganese oxides. Correlation nalyses between the maximum adsorption of Pb and Cd and components in the surface coatings developed periodically indicated that Pb hase association with Mn oxides and Cd phase association with Fe oxides as well as Mn oxides were statistically significant. Effect of Mn xides on Cd adsorption was confirmed in view of its higher content in the surface coatings. The importance of ferromanganese oxides for b and Cd adsorption to the natural surface coatings developed in different seasons was evidenced.     

Adsorption characteristic of bensulfuron-methyl at variable added Pb^2＋ concentrations on paddy soils

The combined pollution of heavy metal Pb²⁺ and bensulfuron-methyl (BSM), originating from chemical herbicides, in agroecological environments has become commonplace in southern China. The adsorption of BSM on three paddy soils in the presence of Pb²⁺ was examined using high-performance liquid chromatograph (HPLC). Results indicated that adsorption of BSM could accurately be described by a Freundlich isotherm equation with correlation constant (R) > 0.98, irrespective of the presence of spiked Pb²⁺. Of the various factors influencing BSM sorption, soil pH appeared to be the most influential. The constant K_f of Freundlich isotherm equation tended to increase with increasing Pb²⁺ concentration in soil which indicated that the spiked of Pb²⁺ in paddy soils would promote the sorption of BSM. ΔG^θ of BSM in three paddy soils was less than 40 kJ/mol in all treatments, indicating the adsorption of BSM is mainly physical in nature. The elution of soil dissolved organic matter (DOM) enhanced the adsorption of BSM in paddy soils. The mechanisms involved in the promotion effects of the spiked Pb²⁺ on BSM adsorption might be the modified surface characteristics of paddy soil solids due to the soil acidification and the increase of soil organic matter concentration because of DOM binding.     

废FCC催化剂对水中铅离子的连续吸附及脱附

通过测定吸附等温线，考察了Ｐｂ２＋在废ＦＣＣ（流化催化裂化）催化剂上的吸附性能及规律，结果表明，Ｐｂ２＋在废ＦＣＣ催化剂上的吸附规律可用Ｌａｎｇｍｕｉｒ和Ｆｒｕｎｄｌｉｃｈ模式描述，吸附呈单分子层形式且容易进行。又通过填充床吸附试验，对Ｐｂ２＋的连续吸附及脱附情形作了考察。结果表明，在温度为１５℃、ｐＨ为５．１３、过柱速率为３．０ｍＬ／ｍｉｎ、径高比为２．２５．０条件下，吸附柱具备适宜的生产周期，连续吸附操作可行，柱效率可达７５．９％；在温度为１５℃、采用２ｍｏｌ／Ｌ稀盐酸作脱附剂，过柱速率为５．０ｍＬ／ｍｉｎ的条件下，吸附剂易于脱附再生，脱附效率可达７８．１％     

水溶性有机质对土壤及底泥中汞吸附行为的影响

以重庆市2种耕作土(黄壤和中性紫色土)及鱼塘底泥为试验材料,分别添加提取自腐殖土的DOM(DOMh),提取自稻草的DOM(DOM)和提取自污泥堆肥的DOM(DOMa),研究DOM对土壤及底泥中Hg的吸附行为的影响.结果表明.DOM对土壤及底泥中汞的吸附行为均有一定的抑制作用,这种抑制作用与DOM种类和试验材料的性质有关.添加不同来源的DOM,对Hg的抑制作用具体表现为:DOMh>DOMr>DOMa;添加同一种DOM时,对Hg吸附的抑制作用表现为鱼塘底泥>紫色土>黄壤.     

粉煤灰负载壳聚糖去除水中低浓度磷的研究

磷是富营养化限制因子,同时,中国主要能源是煤,每年会产生大量的粉煤灰废弃物;壳聚糖广泛存在于自然界,在水处理中的应用前景广阔。利用粉煤灰负载壳聚糖处理水中的磷既可以减少水中的污染物质,成本低,耗能少,又可以使固体废物得到有效的利用。实验中,以粉煤灰负载壳聚糖作为吸附剂,对磷酸盐的吸附进行了实验研究。讨论了废水的pH值、吸附平衡时间、吸附剂的投加量和吸附温度等各个因素对磷酸盐去除率的影响。研究表明:在粉煤灰负载壳聚糖的投加量为6 g/L、废水浓度为3 mg/L、吸附温度为30℃、吸附时间为30 min的条件下,P的去除率可达90%左右。     

Fe3O4@SiO2-NH2磁性复合材料对水中单宁酸的吸附性能研究

通过简单方法制备出Fe3O4@SiO2-NH2磁性复合材料,并利用XRD、FT-IR、VSM和SEM等手段对其物理化学性质进行了表征,最后对水中单宁酸进行了吸附性能研究.结果表明,所制备复合材料上的氨基基团(N—H的特征吸收峰出现在1549.53cm-1)能够与单宁酸上的酚羟基反应,使—NH2质子化形成NH+3,并利用良好的磁性(42.5emu.g-1)使单宁酸从水中分离去除;对单宁酸的吸附符合Langmuir吸附模型和拟二级吸附动力学方程;在pH=6时,基于氢键和静电吸附的协同作用,吸附能力达到最强,为85.18mg.g-1(吸附温度为25℃,吸附时间为60min).研究证实,Fe3O4@SiO2-NH2磁性复合材料与Fe3O4@SiO2和SiO2相比,对单宁酸有更好的吸附性能,同时通过外磁场可以达到固液分离的效果.